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17 October 2015

Entanglement: Gravity's long-distance connection

Theoretical physicist Mark Van Raamsdonk suspects that entanglement and spacetime are actually linked. In 2009, he calculated that space without entanglement couldn’t hold itself together. He wrote a paper asserting that quantum entanglement is the needle that stitches together the cosmic spacetime tapestry.

Multiple journals rejected his paper. But in the years since that initial skepticism, investigating the idea that entanglement shapes spacetime has become one of the hottest trends in physics. “Everything points in a really compelling way to space being emergent from deep underlying physics that has to do with entanglement,” says John Preskill, a theoretical physicist at Caltech.

Physicists have high hopes for where this entanglement-spacetime connection will lead them. General relativity brilliantly describes how spacetime works; this new research may reveal where spacetime comes from and what it looks like at the small scales governed by quantum mechanics. Entanglement could be the secret ingredient that unifies these supposedly incompatible views into a theory of quantum gravity, enabling physicists to understand conditions inside black holes and in the very first moments after the Big Seed.

Maldacena added entanglement to the holographic equation in 2001. He considered the space within two soup cans, each containing a black hole. Then he created the equivalent of a tin can telephone by connecting the black holes with a wormhole — a tunnel through spacetime first proposed by Einstein and Nathan Rosen in 1935. Maldacena looked for a way to create the equivalent of that spacetime connection on the cans’ labels. The trick, he realized, was entanglement.

Like a wormhole, quantum entanglement links entities that share no obvious relationship. The quantum world is a fuzzy place: An electron can seemingly be spinning up and down simultaneously, a state called superposition, until a measurement provides a definitive answer. But if two electrons are entangled, then measuring the spin of one enables an experimenter to know what the spin of the other will be — even though the partner electron is still in a superposition state. This quantum link remains if the electrons are separated by meters, kilometers or light-years.

It’s one thing to say the universe constructs spacetime through entanglement; it’s another to show how the universe does it. The trickier of those assignments has fallen on Preskill and colleagues, who have come to view the cosmos as a colossal quantum computer. For two decades scientists have worked on building quantum computers that use information encoded in entangled entities, such as photons or tiny circuits, to solve problems intractable on traditional computers, such as factoring large numbers. Preskill’s team is using knowledge gained in that effort to predict how particular features inside a soup can would be depicted on the entanglement-filled label.

Quantum computers work by exploiting components that are in superposition states as data carriers — they can essentially be 0s and 1s at the same time. But superposition states are very fragile. Too much heat, for example, can destroy the state and all the quantum information it carries. These information losses, which Preskill compares to having pages torn out of a book, seem inevitable.

But physicists responded by creating a protocol called quantum error correction. Instead of relying on one particle to store a quantum bit, scientists spread the data among multiple entangled particles. A book written in the language of quantum error correction would be full of gibberish, Preskill says, but its entire contents could be reconstructed even if half the pages were missing.

Quantum error correction has attracted a lot of attention in recent years, but now Preskill and his colleagues suspect that nature came up with it first. In the June Journal of High Energy Physics, Preskill’s team showed how the entanglement of multiple particles on a holographic boundary perfectly describes a single particle being pulled by gravity within a chunk of anti-de Sitter space. Maldacena says this insight could lead to a better understanding of how a hologram encodes all the details about the spacetime it surrounds.

Physicists admit that their approximations have a long way to go to match reality. While anti-de Sitter space offers physicists the advantage of working with a well-defined boundary, the universe doesn’t have a straightforward soup-can label. The spacetime fabric of the cosmos has been expanding since the Big Seed and continues to do so at an increasing clip. If you shoot a pulse of light into space, it won’t turn around and come back; it will just keep going. “It is not clear how to define a holographic theory for our universe,” Maldacena wrote in 2005. “There is no convenient place to put the hologram.”

Yet as crazy as holograms, soup cans and wormholes sound, they seem to be promising lenses in the search for a way to meld quantum spookiness with spacetime geometry. In their paper on wormholes, Einstein and Rosen discussed possible quantum implications but didn’t make a connection to their earlier entanglement paper. Today that link may help reconcile quantum mechanics and general relativity in a theory of quantum gravity. Armed with such a theory, physicists could dig into mysteries such as the state of the infant universe, when matter and energy were packed into an infinitesimally small space. “We don’t really know the answers yet by any means,” Preskill says. “But we’re excited to find a new way of looking at things.”

Parrhesia

The two all-time most popular posts of Transudationism

A modern-day classic

All life is a form of light, and the cosmos is a holonic Holy Hologram.

Immanence ≋ Transcendence

Transudationism: mankinds' cosmic ideology.

SIC ITUR AD ASTRA!

Ascensional Transudation

Cosmic Evolution

All history is the history of the evolutionary transubstantiation of matter to Spirit via biological-life processes of Blood and Reason.

Alexandr Solzhenitsyn's concluding thoughts from his 1978 Harvard address, A World Split Apart

Alexandr Solzhenitsyn's concluding thoughts from his famous 1978 Harvard address,"A World Split Apart":

It would be retrogression to attach oneself today to the ossified formulas of the Enlightenment. Social dogmatism leaves us completely helpless in front of the trials of our times.

Even if we are spared destruction by war, our lives will have to change if we want to save life from self-destruction. We cannot avoid revising the fundamental definitions of human life and human society. Is it true that man is above everything? Is there no Superior Spirit above him? Is it right that man's life and society's activities have to be determined by material expansion in the first place? Is it permissible to promote such expansion to the detriment of our spiritual integrity?

If the world has not come to its end, it has approached a major turn in history, equal in importance to the turn from the Middle Ages to the Renaissance. It will exact from us a spiritual upsurge, we shall have to rise to a new height of vision, to a new level of life where our physical nature will not be cursed as in the Middle Ages, but, even more importantly, our spiritual being will not be trampled upon as in the Modern era.

This ascension will be similar to climbing onto the next anthropologic stage. No one on earth has any other way left but - upward.

In recent times it has been fashionable to talk of the levelling of nations, of the disappearance of different races in the melting-pot of contemporary civilization. I do not agree with this opinion, but its discussion remains another question. Here it is merely fitting to say that the disappearance of nations would have impoverished us no less than if all men had become alike, with one personality and one face. Nations are the wealth of mankind, its collective personalities; the very least of them wears its own special colours and bears within itself a special facet of divine intention.

Dr. Paul Craig Roberts

Neoconservatives used 9/11 to launch their plan for US world hegemony. Their plan fit with the interests of America’s ruling oligarchies. Wars are good for the profits of the military/security complex, about which President Eisenhower warned us in vain a half century ago. American hegemony is good for the oil industry’s control over resources and resource flows. The transformation of the Middle East into a vast American puppet state serves well the Israel Lobby’s Zionist aspirations for Israeli territorial expansion.

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MIdwest Book Review:

"The seed of the universe is the big bang, says Kyle McDermott in 'The Declaration of White Independence: The Founding Documents of Transudationism'. An explanation of this view which holds that all of current humanity and life on Earth today was intentionally set in motion all those billions of years ago, 'The Declaration of White Independence' probes matters of cosmological significance with straightforward candor and accessibility. Featuring intriguing concepts and ideas, 'The Declaration of White Independence' is highly recommended for metaphysical studies shelves."

The Music of Life: Biology Beyond Genes

and speaking of cosmic symphonies, Julianne Hough

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